Methods of obtaining ophthalmic lenses providing the eye with reduced aberrations

Inactive Publication Date: 2007-05-31
AMO GRONINGEN
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  • Abstract
  • Description
  • Claims
  • Application Information

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Benefits of technology

[0013] It is another object of the invention to provide methods of obtaining an intraocul

Problems solved by technology

This result is likely to be explained by the fact that present IOLs are not adapted to compensate for defects of the optical system of the human eye, namely optical aberrations.
Even if intraocular lenses aimed at substituting the defective cataract lens and other ophthalmic lenses, such as conve

Method used

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  • Methods of obtaining ophthalmic lenses providing the eye with reduced aberrations
  • Methods of obtaining ophthalmic lenses providing the eye with reduced aberrations
  • Methods of obtaining ophthalmic lenses providing the eye with reduced aberrations

Examples

Experimental program
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Example

EXAMPLE 1

[0064] A sample set of 10 corneal surfaces from individuals were described using Zernike polynomials. The sag data of the corneas was determined using the real height data measured with a Humphrey Atlas corneal topographer. The corneal topographer measures the height (zi) at a discrete number of points. The corneal surface can then be expressed as a linear combination of the first 15 Zernike polynomials (as described in Equation 1, above), where Zi is the ith Zernike polynomial and as is the weighting coefficient for this polynomial. The Zernike polynomials are a set of complete orthogonal polynomials defined on a unit circle. These polynomials as listed in Table 1 above and the weighting coefficients (ai) are calculated from the height data using a Grahm-Schmidt orthogonalization procedure. The Zernike coefficients (ai) for the 10 sample corneas are listed in Table 2 in mm. TABLE 2The Zernike coefficients for the 10 individual corneal surfaces in mm.ACHASACGRCNRFCAFCMFCZ...

Example

EXAMPLE 2

[0066] An averaged design embodiment of the inventive lenses has been calculated using the average “old” cornea information provided by Pablo Anal, Murcia, Spain. This data was taken from a population sample of 16 old corneas in which all of the subjects had a visual acuity of 20 / 30 or better. The corneal surfaces were described using Zernike polynomials for an aperture of 2.0 mm radius (r0). The polynomial coefficients were then used to determine the radius and asphericity values using Equations 2 and 3. R=r022⁢(2⁢3⁢a4-6⁢5⁢a11)(2)K2=8⁢R3r04⁢6⁢5⁢a11(3)

[0067] Note that the asphericity constant, K, describes the surface's variation from a sphere (K2=1−e2). (i.e. For a sphere K=1 and for a parabola K=0). (cc K2−1, wherein cc is the conical constant)

[0068] Because the cornea surface has only been described for a central diameter of 4 mm, the calculated R and K are also only accurate over the central 4 mm. A pupil size of 4.0 mm is therefore selected for design purposes. This ...

Example

EXAMPLE 3

Individually Designed Lenses:

[0075] As a potential further improvement upon the averaged lens (“Z11 lenses”), an individualized lens (“I11 lenses”) was designed for each of four subject corneas employing the same design principles as demonstrated in Example 2. The individual lenses were designed such that the Z11 of the lens balances the Z11 of the individual cornea. The total-eye Z11 coefficients for the I11 lenses are shown in Table 7, together TABLE 7The Z11 coefficients in mm of the model eyes withthe 911, Z11 and I11 lensesSubject911averagedindividualCGR0.000107−0.000101−0.000004FCZ0.000105−0.000100−0.000005JAE0.000195−0.000016−0.000012JBH0.0002380.000037−0.000019

with the corresponding coefficients for the 911 and the averaged lenses. Furthermore, for each of the 911, Z11 (averaged), and I11 (individual) lenses, the MTF curve at best focussed at 50 c / mm and the through focus MTF at 50 c / mm for subject JAE are plotted below in FIG. 7 and 8. From FIG. 7 and 8, it is...

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Abstract

The present invention discloses methods of obtaining ophthalmic lens capable of reducing the aberrations of the eye comprising the steps of characterizing at least one corneal surface as a mathematical model, calculating the resulting aberrations of said corneal surface(s) by employing said mathematical model, selecting the optical power of the intraocular lens. From this information, an ophthalmic lens is modeled so a wavefront arriving from an optical system comprising said lens and corneal model obtains reduced aberrations in the eye. Also disclosed are ophthalmic lenses as obtained by the methods which are capable reducing aberrations of the eye.

Description

RELATED APPLICATIONS [0001] The present application is a divisional application of U.S. application Ser. No. 10 / 606,910, filed Jun. 26, 2003, which is a divisional application of U.S. application Ser. No. 091863,546, filed May 23, 2001.FIELD OF INVENTION [0002] The present invention relates to methods of designing ophthalmic lenses that provide the eye with reduced aberrations, as well as lenses capable of providing such visual improvements. BACKGROUND OF THE INVENTION [0003] It is presently discussed that the visual quality of eyes having an implanted intraocular lens (IOL) is comparable with normal eyes in a population of the same age. Consequently, a 70 year old cataract patient can only expect to obtain the visual quality of a non-cataracteous person of the same age after surgical implantation of an intraocular lens, although such lenses objectively have been regarded as optically superior to the natural crystalline lens. This result is likely to be explained by the fact that pr...

Claims

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Application Information

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IPC IPC(8): G02C7/02A61B3/107A61F2/16
CPCA61B3/0025A61F2/1613G02C7/02G02C7/028G02C2202/06G02C2202/22A61F2/1637A61F2240/002
Inventor NORRBY, SVERKERARTAL, PABLOPIERS, PATRICIA ANNVAN DER MOOREN, MARRIE
Owner AMO GRONINGEN
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